网格环境中的检查点进程组

2008 Ninth International Conference on Parallel and Distributed Computing, Applications and Technologies Pub Date : 2008-12-01 DOI:10.1109/PDCAT.2008.14

John Mehnert-Spahn, M. Schöttner, C. Morin

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引用次数: 5

摘要

欧盟资助的XtreemOS项目实现了一个网格操作系统，通过标准POSIX接口透明地利用虚拟组织的资源。网格检查点和重新启动需要保存和恢复在分布式异构网格环境中执行的作业。后者可能产生数百万个网格节点(pc、集群和移动设备)，这些节点使用不同的系统特定检查指针，为在网格节点上执行的进程保存和恢复应用程序和内核数据结构。在本文中，我们将简要介绍XtreemOS网格检查点架构，以及我们如何弥合抽象网格和系统特定检查点之间的鸿沟。然后，我们讨论如何跟踪进程，以及如何管理不同的进程分组技术，以确保作业的所有进程和任何进一步依赖的进程都可以被检查点和重新启动。最后，我们将介绍如何使用Linux控制组来解决重新启动期间的资源隔离问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Checkpointing Process Groups in a Grid Environment

The EU-funded XtreemOS project implements a grid operating system transparently exploiting resources of virtual organizations through the standard POSIX interface. Grid checkpointing and restart requires to save and restore jobs executing in a distributed heterogeneous grid environment. The latter may spawn millions of grid nodes ( PCs, clusters, and mobile devices ) using different system-specific checkpointers saving and restoring application and kernel data structures for processes executing on a grid node. In this paper we shortly describe the XtreemOS grid checkpointing architecture and how we bridge the gap between the abstract grid and the system-specific checkpointers. Then we discuss how we keep track of processes and how different process grouping techniques are managed to ensure that all processes of a job and any further dependent ones can be checkpointed and restarted. Finally, we present how Linux control groups can be used to address resource isolation issues during the restart.

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来源期刊

2008 Ninth International Conference on Parallel and Distributed Computing, Applications and Technologies

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